PL663-28QC [MICROCHIP]
LVPECL Output Clock Oscillator;型号: | PL663-28QC |
厂家: | MICROCHIP |
描述: | LVPECL Output Clock Oscillator 振荡器 |
文件: | 总14页 (文件大小:706K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Analog Frequency Multiplier
PL663-xx XO Families
DESCRIPTION
FEATURES
Non-PLL frequency multiplication
Analog Frequency Multipliers TM (AFMs) are the
industry’s first “Balanced Oscillator” utilizing analog
multiplication of the fundamental frequency (at
double or quadruple frequency), combined with an
attenuation of the fundamental of the reference
crystal, without using a phase-locked loop (PLL), in
CMOS technology.
Input frequency from 30-200 MHz
Output frequency from 60-800 MHz
Low phase noise and jitter (equivalent to fundamental
at the output frequency)
Ultra-low jitter
o RMS phase jitter < 0.25 ps (12 kHz to 20 MHz)
o RMS period jitter < 2.5 ps typ.
Low phase noise
Patent pending PL663-xx family of AFM products
can achieve up to 800 MHz differential LVPECL,
LVDS, or single-ended LVCMOS output with little
jitter or phase noise deterioration.
o -145 dBc/Hz @ 100 kHz offset from 155.52 MHz
o -150 dBc/Hz @ 10 MHz offset from 155.52 MHz
Low input frequency eliminates the need for expensive
crystals
PL663-xx family of products utilizes a low-power
CMOS technology and is housed in GREEN/ RoHS
compliant 16-pin TSSOP and 3x3 QFN packages.
Differential LVPECL/LVDS, or single-ended LVCMOS
output
Single 2.5V or 3.3V +/- 10% power supply
Optional industrial temperature range (-40C to
+85C)
Available in 16-pin GREEN/RoHS compliant TSSOP,
and 16-pin 3x3 QFN packages.
Figure 1: 2X AFM Phase Noise at 212.5 MHz (106.25 MHz 3rd overtone crystal)
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1(408) 944-0800 • fax +1(408) 474-1000 • www.micrel.com Rev. 02/18/10 Page 1
Analog Frequency Multiplier
PL663-xx XO Families
L2X
OE
XIN
QBAR
Q
Frequency
X2
Frequency
X4
Oscillator
Amplifier
R
XOUT
Only required in x4 designs
L4X
Figure 2: Block Diagram of AFM XO
Figure 3 shows the period jitter histogram of the 2x Analog Frequency Multiplier at 212.5 MHz, while Figure 4
shows the very low levels of sub-harmonics that correspond to the exceptional performance (i.e. low jitter).
Figure 3: Period Jitter Histogram at 212.5MHz
Analog Frequency Multiplier (2x),
with 106.25 MHz crystal
Figure 4: Spectrum Analysis at 212.5MHz
Analog Frequency Multiplier (2x),
with sub-harmonics below –69dBc
OE LOGIC SELECTION
OUTPUT
OESEL
OE
Output State
0 (Default)
Enabled
Tri-state
Tri-state
Enabled
Tri-state
Enabled
Enabled
Tri-state
0 (Default)
1
0
LVPECL
1
1 (Default)
0
1 (Default)
0 (Default)
1
0 (Default)
1
LVDS or LVCMOS
OESEL and OE: Connect to VDD to set to “1”, connect to GND to set to “0”. [The ‘Default’ state is set by internal pull up/down resistor.]
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1(408) 944-0800 • fax +1(408) 474-1000 • www.micrel.com Rev. 02/18/10 Page 2
Analog Frequency Multiplier
PL663-xx XO Families
PRODUCT SELECTOR GUIDE
FREQUENCY VERSUS PHASE NOISE PERFORMANCE
Phase Noise at Frequency Offset From Carrier (dBc/Hz)
Input
Frequency
Range
Output
Frequency
Range
Analog
Multiplication
Factor
Part
Number
Output
Type
Carrier
Freq.
10Hz 100Hz 1KHz 10KHz 100KHz 1MHz 10MHz
(MHz)
(MHz)
(MHz)
PL663-07
PL663-08
PL663-17
PL663-18
PL663-19
PL663-28
PL663-29
30 - 80
30 - 80
2
2
2
2
2
2
2
60 to 160
60 to 160
LVCMOS
LVPECL
LVCMOS
LVPECL
LVDS
156.25
156.25
212.5
-75
-75
-70
-70
-70
-60
-60
-105
-105
-100
-100
-100
-92
-130
-130
-130
-130
-130
-122
-122
-140
-140
-140
-140
-140
-140
-140
-145
-145
-145
-145
-145
-142
-142
-150
-150
-148
-148
-148
-146
-146
-150
-150
-148
-148
-148
-146
-148
75 - 140
75 - 140
75 - 140
140 - 160
100 - 160
150 to 280
150 to 280
150 to 280
280 to 320
200 to 320
212.5
212.5
LVPECL
LVDS
311.04
311.04
-92
FREQUENCY VERSUS JITTER, AND SUB-HARMONIC PERFORMANCE
RMS Period Peak to Peak
RMS
Accumulated
(L.T.) Jitter (ps)
Phase Jitter
(12 KHz-20MHz)
(ps)
Spectral Specifications / Sub-harmonic Content
Jitter
(ps)
Period Jitter
(ps)
(dBc)
Frequency (MHz)
Output
Freq.
(MHz)
Part
Number
Carrier
@
@
@
@
@
@
Freq.
MHz
(Fc)
Min. Typ. Max. Min. Typ. Max. Min. Typ. Max.
Min. Typ. Max.
-75% -50% -25% +25% +50% +75%
(Fc)
(Fc)
(Fc)
(Fc)
(Fc)
(Fc)
PL663-07
PL663-08
PL663-17
PL663-18
PL663-19
PL663-28
PL663-29
156.25
156.25
212.50
212.50
212.50
311.04
311.04
2
3
3
4
4
4
4
4
18 20
18 20
18 20
18 20
18 20
18 20
18 20
3
3
4
4
4
4
4
0.24
0.24
0.19
0.19
0.19
0.16
0.16
156.25
156.25
212.50
212.50
212.50
311.04
311.04
-70
-70
-70
-70
-70
-65
-65
-75
-75
-75
-75
-75
-70
-70
2
2.5
2.5
2.5
2.5
2.5
Note: Wavecrest data 10,000 hits. No Filtering was used in Jitter Calculations .
Agilent E5500 was used for phase jitter measurements.
Spectral specifications were obtained using Agilent E7401A.
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1(408) 944-0800 • fax +1(408) 474-1000 • www.micrel.com Rev. 02/18/10 Page 3
Analog Frequency Multiplier
PL663-xx XO Families
BOARD LAYOUT CONSIDERATIONS AND CRYSTAL SPECIFICATIONS
BOARD LAYOUT CONSIDERATIONS
To minimize parasitic effects and improve performance, do the following:
Place the crystal as close as possible to the IC.
Make the board traces that are connected to the crystal pins symmetrical. The board trace symmetry is
very important, as it reduces the negative parasitic effects to produce clean frequency multiplication with
low jitter.
CRYSTAL SPECIFICATIONS
Crystal Resonator
CL (xtal)
Typical
ESR(RE)
Max.
C0
Part Number
Mode
Frequency (FXIN)
Max.
PL663-07
PL663-08
Fundamental or
3rd overtone
30 to 80MHz
5 pF
5 pF
5 pF
30Ω
60Ω
60Ω
4.5 pF
4.0 pF
4.0 pF
PL663-17
PL663-18
PL663-19
Fundamental or
3rd overtone
75 to 140MHz
140 to 200MHz
PL663-28
PL663-29
Fundamental or
3rd overtone
Note: Non-specified parameters can be chosen as standard values from crystal suppliers.
CL ratings larger than 5pF require a crystal frequency adjustment.
Request detailed crystal specifications from Micrel.
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1(408) 944-0800 • fax +1(408) 474-1000 • www.micrel.com Rev. 02/18/10 Page 4
Analog Frequency Multiplier
PL663-xx XO Families
EXTERNAL COMPONENT VALUES
INDUCTOR VALUE OPTIMIZATION
The required inductor value(s) for the best performance depends on the operating frequency, and the board
layout specifications. The listed values in this datasheet are based on the calculated parasitic values from
Micrel’s evaluation board design. These inductor values provide the user with a starting point to determine the
optimum inductor values. Additional fine-tuning may be required to determine the optimal solution.
To assist with the inductor value optimization, Micrel has developed the “AFM Tuning Assistant” software. You
can download this software from Micrel’s web site (www.micrel.com). The software consists of two worksheets.
The first worksheet (named L2) is used to fine-tune the ‘L2’ inductor value, and the second worksheet (named L4)
is used for fine tuning of the ‘L4’ (used in 4x AFMs only) inductor value.
For those designs using Micrel’s recommended board layout, you can use the “AFM Tuning Assistant” to
determine the optimum values for the required inductors. This software is developed based on the parasitic
information from Micrel’s board layout and can be used to determine the required inductor and parallel capacitor
(see LWB1 and Cstray parameters) values. For those employing a different board layout in their design, we
recommend to use the parasitic information of their board layout to calculate the optimized inductor values.
Please use the following fine tuning procedure:
Figure 5: Diagram Representation of the Related System Inductance and Capacitance
DIE SIDE
PCB side
- Cinternal = Based on AFM Device
- Cpad = 2.0 pF, Bond pad and its ESD circuitry
- C11 = 0.4 pF, The following amplifier stage
- LWB1 = 2 nH, (2 places), Stray inductance
- Cstray = 1.0 pF, Stray capacitance
- L2X = 2x inductor
- C2X = range (0.1 to 2.7), Fine tune inductor if used
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1(408) 944-0800 • fax +1(408) 474-1000 • www.micrel.com Rev. 02/18/10 Page 5
Analog Frequency Multiplier
PL663-xx XO Families
There are two default variables that normally will not need to be modified. These are Cpad, and C11 and
are found in cells B22 and B27 of ‘AFM Tuning Assistant’, respectively.
LWB1 is the combined stray inductance in the layout. The DIE wire bond is ~ 0.6 nH and in the case of a
leaded part an additional 1.0 nH is added. Your layout inductance must be added to these. There are 2 of
these and they are assumed to be approximately symmetrical so you only need to enter this inductance
once in cell B23.
Enter the stray parasitic capacitance into cell B26. An additional 0.5 pF must be added to this value if a
leaded part is used.
Enter the appropriate value for Cinternal into B21 based on the device used (see column D). Use the ‘AFM
Tuning Assistant’ software to calculate L2X (and C2X if used) for your resonance frequency.
Internal Capacitor Selection by Device
Device Number
Cinternal (pF)
2X
PL663-0X
PL663-1X
PL663-2X
46.500
14.625
14.625
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1(408) 944-0800 • fax +1(408) 474-1000 • www.micrel.com Rev. 02/18/10 Page 6
Analog Frequency Multiplier
PL663-xx XO Families
EXTERNAL COMPONENT VALUES – 3RD OVERTONE RESISTOR SELECTIONS (R3rd)
This resistor is only required when a third overtone crystal is used. The chart below indicates the calculated and
the nearest “E12” resistor values versus frequency.
PL663-07/08
PL663-17/18/19
E12
PL663-28/29
E12
Pick
KΩ
E24
Pick
KΩ
Freq. R3rd
Freq. R3rd
Freq.
(MHz)
R3rd
(Ω)
Pick
(MHz)
(Ω)
(MHz)
(Ω)
KΩ
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
9,917
9,297
8,750
8,264
7,829
7,438
7,083
6,761
6,467
6,198
5,950
5,721
5,509
5,313
5,129
4,958
4,798
4,648
4,508
4,375
4,250
4,132
4,020
3,914
3,814
3,719
10
10
75
77.5
80
82.5
85
87.5
90
92.5
95
2,125
2,056
1,992
1,932
1,875
1,821
1,771
1,723
1,678
1,635
1,594
2.2
2.2
2.2
1.8
1.8
1.8
1.8
1.8
1.8
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1.2
140.0
142.0
144.0
146.0
148.0
150.0
152.0
154.0
156.0
158.0
160.0
162.0
164.0
166.0
168.0
170.0
172.0
174.0
176.0
178.0
180.0
182.0
184.0
186.0
188.0
190.0
192.0
194.0
196.0
198.0
200.0
915
902
890
878
866
854
843
832
821
811
801
790
780
770
759
749
740
730
720
711
701
692
683
674
665
656
647
639
630
622
614
0.91
0.91
0.91
0.91
0.91
0.82
0.82
0.82
0.82
0.82
0.82
0.82
0.75
0.75
0.75
0.75
0.75
0.75
0.75
0.68
0.68
0.68
0.68
0.68
0.68
0.68
0.62
0.62
0.62
0.62
0.62
8.2
8.2
8.2
6.8
6.8
6.8
6.8
6.8
5.6
5.6
5.6
5.6
4.7
4.7
4.7
4.7
4.7
4.7
3.9
3.9
3.9
3.9
3.9
3.9
97.5
100
102.5 1,555
105 1,518
107.5 1,483
110 1,449
112.5 1,417
115 1,386
117.5 1,356
120 1,328
122.5 1,301
125 1,275
127.5 1,250
130 1,226
132.5 1,203
135 1,181
137.5 1,159
140 1,138
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1(408) 944-0800 • fax +1(408) 474-1000 • www.micrel.com Rev. 02/18/10 Page 7
Analog Frequency Multiplier
PL663-xx XO Families
ELECTRICAL SPECIFICATIONS
ABSOLUTE MAXIMUM RATINGS
PARAMETERS
SYMBOL
MIN.
MAX.
UNITS
Supply Voltage
VDD
VI
4.6
VDD+0.5
VDD+0.5
+150
+85
V
Input Voltage, DC
GND-0.5
GND-0.5
-55
V
Output Voltage, DC
VO
V
Storage Temperature
TS
C
C
C
C
C
Industrial Ambient Operating Temperature
Commercial Ambient Operating Temperature
Junction Temperature
TA_I
TA_C
TJ
-40
0
+70
125
Lead Temperature (soldering, 10s)
260
Exposure of the device under conditions beyond the limits specified by Maximum Ratings for extended periods may cause permanent damage to the
device and affect product reliability. These conditions represent a stress rating only, and functional operations of the dev ice at these or any other
conditions above the operational limits noted in this specification is not implied.
*Note: For performance reasons, some pins on this device do not meet Micrel’s standard ESD protection. Therefore, the ESD protection on this
device is classified as Class I HBM and Class A MM. Handling precaution is recommended.
LVPECL ELECTRICAL CHARACTERISTICS
PARAMETERS
SYMBOL
CONDITIONS
MIN.
TYP.
MAX.
UNITS
Supply Current (loaded outputs)
Operating Supply Voltage
Output Clock Duty Cycle
Short Circuit Current
IDD
Fout = 212.5 MHz, 15pF Load
58
2.25
45
65
75
3.63
55
mA
V
VDD
@ VDD – 1.3V
50
%
mA
50
RL = 50 Ω to
VDD – 2V
Output High Voltage
VOH
VDD – 1.025
V
Output Low Voltage
Clock Rise Time
Clock Fall Time
VOL
tr
RL = 50 Ω to VDD – 2V
@20/80%
VDD – 1.620
0.45
V
0.25
0.25
ns
ns
tf
@80/20%
0.45
PECL Levels Test Circuit
PECL Transistion Time Waveform
DUTY CYCLE
OUT
VDD
2.0V
45 - 55%
55 - 45%
50
50
OUT
80%
20%
OUT
OUT
tR
tF
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1(408) 944-0800 • fax +1(408) 474-1000 • www.micrel.com Rev. 02/18/10 Page 8
Analog Frequency Multiplier
PL663-xx XO Families
LVDS ELECTRICAL CHARACTERISTICS
PARAMETERS
SYMBOL
CONDITIONS
MIN.
TYP.
MAX.
UNITS
Supply Current (with loaded outputs)
Operating Supply Voltage
Output Clock Duty Cycle
Output Differential Voltage
VDD Magnitude Change
Output High Voltage
IDD
Fout = 212.5MHz, 15pF Load
55
60
3.63
55
mA
V
VDD
2.25
45
@ 1.25V
50
%
VOD
VOD
VOH
247
-50
355
454
50
mV
mV
V
1.4
1.1
1.2
3
1.6
RL = 100 Ω
(see figure)
Output Low Voltage
VOL
0.9
1.125
0
V
Offset Voltage
VOS
1.375
25
V
Offset Magnitude Change
mV
VOS
Vout = VDD or GND
VDD = 0V
Power-off Leakage
IOXD
µA
1
10
Output Short Circuit Current
Differential Clock Rise Time
Differential Clock Fall Time
IOSD
tr
-5.7
0.5
0.5
-8
mA
ns
RL = 100 Ω
CL = 10 pF
(see figure)
0.2
0.2
0.7
0.7
tf
ns
LVDS Transistion Time Waveform
LVDS Levels Test Circuit
LVDS Switching Test Circuit
OUT
OUT
0V(Differential)
OUT
OUT
CL = 10pF
50
50
VOD
VOS
VDIFF
RL = 100
80%
80%
VDIFF
0V
CL = 10pF
20%
20%
OUT
OUT
tR
tF
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1(408) 944-0800 • fax +1(408) 474-1000 • www.micrel.com Rev. 02/18/10 Page 9
Analog Frequency Multiplier
PL663-xx XO Families
LVCMOS ELECTRICAL CHARACTERISTICS
PARAMETERS
SYMBOL
CONDITIONS
MIN.
TYP.
MAX.
UNITS
Supply Current, Dynamic,
Loaded Outputs
IDD
At 100MHz, load=10pF
32
40
mA
Operating Supply Voltage
Output High Voltage (LVTTL)
Output Low Voltage (LVTTL)
Output High Voltage (LVCMOS)
Output High Voltage
VDD
2.25
2.4
3.63
V
V
V
V
V
V
VOH3.3
VOL3.3
VOHC3.3
VOH2.5
VOL2.5
IOH = -8.5mA, 3.3V Supplies
IOL = 8.5mA, 3.3V Supplies
IOH = -4mA, 3.3V Supplies
IOH = 1mA, 2.5V Supplies
IOL = 1mA, 2.5V Supplies
0.4
0.2
VDD – 0.4
VDD – 0.2
Output Low Voltage
VOL = 0.4V, VOH = 2.4V
(per output)
Output Drive Current
IOSD
8.5
mA
10% / 90% VDD with 10 pF
load
Output Clock Rise/Fall Time
Output Clock Duty Cycle
Tr/Tf
1.2
50
1.6
55
ns
%
Measured @ 50% VDD
45
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1(408) 944-0800 • fax +1(408) 474-1000 • www.micrel.com Rev. 02/18/10 Page 10
Analog Frequency Multiplier
PL663-xx XO Families
BOARD DESIGN AND LAYOUT CONSIDERATIONS
L2X: Reduce the PCB trace inductance to a
minimum by placing L2X as physically close to their
respective pins as possible. Also be sure to bypass
each VDD connection especially taking care to place
a 0.01 uF bypass at the VDD side of L2X (see
recommended layout).
used, feed each bypass cap with its own via. Be
sure to connect any ground pin including the bypass
caps with short via connection to the ground plane.
OESEL: J1 is recommended so the same PCB
layout can be used for both OESEL settings.
Crystal Connections: Be sure to keep the ground
plane under the crystal connections continuous so
that the stray capacitace is consistent on both
crystal connections. Also be sure to keep the crystal
connections symmetrical with respect to one another
and the crystal connection pins of the IC. If you
chose to use a series capacitance and/or inductor to
fine tune the crystal frequency, be sure to put
symmetrical pads for this cap on both crystal pins
(see Cadj in recommended layout), even if one of
the capacitors will be a 0.01 uF and the other is
used to tune the frequency. To further maintain a
symmetrical balance on a crystal that may have
more internal Cstray on one pin or the other, place
capacitor pads (Cbal) on each crystal lead to ground
(see recommended layout). R3rd is only required if
a 3rd overtone crystal is used.
VDD and GND: Bypass VDDANA and VDDBUF with
separate bypass capacitors and if a VDD plane is
PL663 (2x AFM) TSSOP Layout
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1(408) 944-0800 • fax +1(408) 474-1000 • www.micrel.com Rev. 02/18/10 Page 11
Analog Frequency Multiplier
PL663-xx XO Families
PACKAGE PIN DESCRIPTION AND ASSIGNMENT
DNC
GNDOSC
DNC
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
L2X
VDDOSC
VDDANA
OESEL
VDDBUF
QBAR
12 11 10
13
9
8
7
6
5
OESEL
VDDANA
VDDOSC
L2X
GNDANA
DNC
14 PL663-XX
XIN
15
OE
XOUT
OE
16
XOUT
1
2
3
4
DNC
Q
GNDANA
GNDBUF
2x AFM Package Pin Out
PIN ASSIGNMENTS
Name
Pin #
Type
Description
DNC
GNDOSC
XIN
1,3,7
2
I
Do Not Connect.
P
I
GND connection for oscillator.
Input from crystal oscillator circuitry.
4
XOUT
OE
5
O
I
Output from crystal oscillator circuitry.
6
Output Enable input. See “OE LOGIC SELECTION TABLE”.
GND connection.
GNDANA
GNDBUF
Q
8
P
P
O
O
9
GND connection.
10
11
PECL/LVDS/CMOS output.
QBAR
Complementary PECL/LVDS output or in-phase CMOS.
VDD connection for output buffer circuitry. VDDBUF should be separately decoupled
from other VDDs whenever possible.
VDDBUF
OESEL
12
13
14
15
P
I
Selector input to choose the OE control logic (see “OE SELECTION TABLE”). If no
connection is applied, value will be set to default through internal pull-down resistor.
VDD connection for analog circuitry.VDDANA should be separately decoupled from
other VDDs whenever possible.
VDDANA
VDDOSC
P
P
VDD connection for oscillator. VDD should be separately decoupled from other VDDs
whenever possible.
External inductor connection. The inductor is recommended to be a high Q small size
0402 or 0603 SMD component, and must be placed between L2X and adjacent
VDDOSC. Place inductor as close to the IC as possible to minimize parasitic effects
and to maintain inductor Q.
L2X
16
I
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Analog Frequency Multiplier
PL663-xx XO Families
PACKAGE INFORMATION
16 PIN TSSOP
16 PIN TSSOP ( mm )
Symbol
Min.
Max.
1.20
0.15
0.30
0.20
5.10
4.50
E
H
A
A1
B
-
0.05
0.19
0.09
4.90
4.30
D
C
D
E
A
H
L
6.40 BSC
A1
0.45
0.75
C
e
0.65 BSC
L
B
e
16 PIN 3x3 QFN
QFN-16L
e
DDD
L
Dimension (mm)
Symbol
D1
Min
0.70
0.00
Nom
0.75
Max
0.80
0.05
A
A1
A3
b
-
0.203 Ref
0.25
0.20
2.95
2.95
1.65
1.65
0.250
0.30
3.05
3.05
1.75
1.75
0.350
Pin1 Dot
b
D
3.00
E
3.00
A
D1
E1
L
1.70
1.70
0.300
0.50BSC
A3
e
SEATING
PLANE
A1
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1(408) 944-0800 • fax +1(408) 474-1000 • www.micrel.com Rev. 02/18/10 Page 13
Analog Frequency Multiplier
PL663-xx XO Families
ORDERING INFORMATION (GREEN PACKAGE COMPLIANT)
To order parts, please contact our Sales Department:
2180 Fortune Drive, San Jose, CA 95131, USA
Tel: (408) 944-0800 Fax: (408) 474-1000
PART NUMBER
The order number for this device is a combination of the following:
Part number, Package type and Operating temperature range
PL663-XX X X - X
Shipping Option
None=Tube
Part Number
R=Tape & Reel
Temperature
C=Commercial (0°C to
70°C)
Package Type
O=TSSOP-16L
Q=QFN-16L
I=Industrial (-40°C to
Part/Order Number
PL663-XXOC
Marking
Package Option
P663-XX
OC
LLLLL
TSSOP – Tube
PL663-XXOC-R
TSSOP – Tape and Reel
P663
XX
LLL
PL663-XXQC-R
PL663-XXDC
QFN – Tape and Reel
Die – Waffle Pack
Note: See Product Selector Guide on page 3 for specific –XX part numbers.
LLLLL and LLL designates lot number
Micrel Inc., reserves the right to make changes in its products or specifications, or both at any time without notice. The information furnished by Micrel is believed to be accurate
and reliable. However, Micrel makes no guarantee or warranty concerning the accuracy of said information and shall not be responsible for any loss or damage of whatever
nature resulting from the use of, or reliance upon this product.
LIFE SUPPORT POLICY: Micrel’s products are not authorized for use as critical components in life support devices or systems without the express written approval of the
President of Micrel Inc.
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1(408) 944-0800 • fax +1(408) 474-1000 • www.micrel.com Rev. 02/18/10 Page 14
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